Saved in:
Bibliographic Details
Main Authors: Ageev, Dmitry S., Ageeva, Yulia A.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.07794
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866908960777306112
author Ageev, Dmitry S.
Ageeva, Yulia A.
author_facet Ageev, Dmitry S.
Ageeva, Yulia A.
contents We study interacting scalar field theories in which different fields propagate with inequivalent spatial kinetic tensors, corresponding to different sound speeds in different directions. We derive the exact elastic two-body unitarity relation and show that the phase space defines a positive kernel on the sphere, so that the scattering amplitude acts as an operator in angular-momentum space. The corresponding unitarity bounds constrain the eigenvalues of the phase-space-rescaled amplitude. In the weak-anisotropy regime, we obtain the leading correction explicitly and show that it induces $s-d$ mixing. For a two-scalar quartic model, we verify the anisotropic optical theorem at one loop and derive coupled channel elastic unitarity bounds. We also compute the local one-loop effective potential and analyze the corresponding one-loop renormalization-group structure. In the classically scale-invariant limit, the Gildener-Weinberg flat direction is unchanged, whereas anisotropy modifies the radiatively generated scalon mass. In the isotropic but unequal-velocity limit, several results become analytic and the RG flow exhibits an additional invariant ray.
format Preprint
id arxiv_https___arxiv_org_abs_2505_07794
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Disparity in sound speeds: implications for elastic unitarity and the effective potential in quantum field theory theory
Ageev, Dmitry S.
Ageeva, Yulia A.
High Energy Physics - Theory
We study interacting scalar field theories in which different fields propagate with inequivalent spatial kinetic tensors, corresponding to different sound speeds in different directions. We derive the exact elastic two-body unitarity relation and show that the phase space defines a positive kernel on the sphere, so that the scattering amplitude acts as an operator in angular-momentum space. The corresponding unitarity bounds constrain the eigenvalues of the phase-space-rescaled amplitude. In the weak-anisotropy regime, we obtain the leading correction explicitly and show that it induces $s-d$ mixing. For a two-scalar quartic model, we verify the anisotropic optical theorem at one loop and derive coupled channel elastic unitarity bounds. We also compute the local one-loop effective potential and analyze the corresponding one-loop renormalization-group structure. In the classically scale-invariant limit, the Gildener-Weinberg flat direction is unchanged, whereas anisotropy modifies the radiatively generated scalon mass. In the isotropic but unequal-velocity limit, several results become analytic and the RG flow exhibits an additional invariant ray.
title Disparity in sound speeds: implications for elastic unitarity and the effective potential in quantum field theory theory
topic High Energy Physics - Theory
url https://arxiv.org/abs/2505.07794